Quantum Gravity and String Theory

1204 Submissions

Seiberg-Witten M-theory As an Almost Successful Predictive Theory

Seiberg, Witten, and many other string theorists have suggested that superstring theory might lead to spacetime as an emergent approximation. Seiberg-Witten M-theory predicts supersymmetry in the form of particles. If nature is finite and digital and the Rañada-Milgrom effect fully explains so-called dark matter, then supersymmetry might exist in the form of symmetry principles within Wolfram’s mobile automaton. This hypothetical automaton is qualitatively described in Wolfram’s “A New Kind of Science”, Chapter 9. M-theory with the infinite nature hypothesis suggests questions and hypotheses based upon a curling-up (or compactification) of the 11-dimensional fundamental domain. Modified M-theory with the finite nature hypothesis suggests questions and hypotheses based upon a building-up of an approximation to the 11-dimensional domain. This hypothetical approximation is the result of the Wolframian updating parameter gradually building up time, space, and energy from Fredkin-Wolfram information below the Planck scale. If Wolfram is correct, then the monster group and the 6 pariah groups are essential for understanding the foundations of physics. If nature is finite and digital then the precise values of the free parameters of the Standard Model should be completely predictable. Modified M-theory with Wolfram’s automaton might underlie quantum field theory.
Category:Quantum Gravity and String Theory

Maxwell's Theory of Gravity and Thermodynamics

We argue that the entropic origin of gravitation correctly reproduced general relativity and quantum mechanics, with a particular
treatment, where entropic gravity can be viewed as Maxwell's theory of gravity and thermodynamics. And this application will give us
more detailed knowledge on the origin of gravity
Category:Quantum Gravity and String Theory

The Physics of Unification

To date, a unification is needed with the application of Planck units which unifies not only the force of Newtonian gravity with the electromagnetic force, and the strong and weak nuclear forces, but also one which includes quantum field theory and relativity. Herein, a unification as such is accomplished in which the mathematical terms of the conventional fields and the corresponding forces are unified into one general function in Planck units, and the geometry (including internal structure) and functionality of certain aspects of the respective unified field constructed therefrom are described. Accordingly, the geometry and functionality of the unified field are applied for describing certain aspects of electromagnetic, gravitational, and nuclear interaction along with certain aspects of elementary particles (including antiparticles), atoms, molecules, and, at the macroscopic scale, certain aspects of astronomical bodies such as black holes, and, ultimately, certain aspects of the Universe as a whole (including dark matter, dark energy, and the big bang).
Category:Quantum Gravity and String Theory

New Excited Levels of the Bottom and Anti Bottom Mesons in Integral Charge Quark Susy

Considering the `molar electron mass' an attempt is made to study the 4 interactions in a unified manner. Charged leptons, nucleons and (integral charge) quark masses were fitted in a unified scheme. Based on the modified SUSY, Higgs charged fermion, its boson and the quark baryon and quark meson masses were fitted. Finally an attempt is made to fit and predict the new excited levels of the bottom and anti bottom mesons.
Category:Quantum Gravity and String Theory

A Physical Interpretation of String Theory?

This note identifies similarities between the cordus conjecture and string theory, and suggests opportunity for new research directions. To fully define a cordus particule requires 11 geometric independent-variables. This is the same number of dimensions predicted by some variants of string theory. There is also a similarity in the structural models, e.g. for the photon. The cordus model is physically descriptive and built with conceptual-design principles, whereas string theory provides a family of abstract mathematical models. Perhaps they are describing the same thing from different perspectives? Therefore we invite string theorists to consider whether the orthogonal spatial dimensions in their models could instead be interpreted as geometric independent-variables. Doing so would create new ways for interpreting string theories. Perhaps string theory might yet be a tool for the development of physically meaningful explanations for fundamental physics?
Category:Quantum Gravity and String Theory

The God Particle: the Higgs Boson, Extra Dimensions and the Particle in a Box

In this paper we show as the lightest Higgs boson, is directly linked to the existence of seven dimensions compacted
Kaluza-Klein type, and four extended. The model of a particle in a box allows us to calculate, using the extra dimensions
as entries in the well-known equations of this model, the mass of the lightest Higgs boson. This estimate coincides with
complete accuracy with that obtained in our previous work, "God and His Creation: The Universe", using the well known
quantum mechanical model of a particle in a spherically symmetric potential. Both load match and result in a mass for
the lightest Higgs boson of 126.23 Gev - 126.17 Gev
Category:Quantum Gravity and String Theory